16

Assuming I have these two functions:

let dowork n =
    async {
        do printfn "work %d" n
    }

let work i = async {
  do! Async.Sleep(2000)
  printfn "work finished %d" i }

How would I use Async.Parallel to run them concurrently and wait for both to finish before proceeding?

1
40

As mentioned earlier, you just put your async functions in a sequence and pass them to Async.Parallel.

But, if you need to execute different jobs that return results of different types, you can use Async.StartChild:

let fn1 = async {
        do! Async.Sleep 1000
        printfn "fn1 finished!"
        return 5
    }

let fn2 = async {
        do! Async.Sleep 1500
        printfn "fn2 finished!"
        return "a string"
    }

let fncombined = async {
        // start both computations simultaneously
        let! fn1 = Async.StartChild fn1
        let! fn2 = Async.StartChild fn2

        // retrieve results
        let! result1 = fn1
        let! result2 = fn2

        return sprintf "%d, %s" (result1 + 5) (result2.ToUpper())
    }

fncombined
|> Async.RunSynchronously
|> printfn "%A"
2
  • 3
    I don't care if yours is not the selected answer, for me, you're the real mvp Feb 1 '15 at 3:53
  • 3
    I agree, I have been trying to figure out how to do this and this example is EXACTLY what I was looking for!
    – Keith
    Mar 30 '16 at 12:53
16

Async.Parallel takes a sequence of async. In this case I pass it a list.

[dowork 1; work 2]
|> Async.Parallel
|> Async.RunSynchronously
|> ignore

If you want to return different types of data use a Discriminated Union.

type WorkResults =
    | DoWork of int
    | Work of float32

let dowork n =
    async {
        do printfn "work %d" n
        return DoWork(n)
    }

let work i = async {
  do! Async.Sleep(2000)
  printfn "work finished %d" i 
  return Work(float32 i / 4.0f)
}

[dowork 1; work 2]
|> Async.Parallel
|> Async.RunSynchronously
|> printf "%A"

output

work 1
work finished 2
[|DoWork 1; Work 0.5f|]
0

When the number of tasks is fixed at compile-time, I like to have a helper function like this:

module Async = 

  let parallel2 a b = 
    async {
      // Start both tasks
      let! x = Async.StartChild a
      let! y = Async.StartChild b

      // Wait for both to finish
      let! i = x
      let! j = y

      // Return both results as a strongly-typed tuple
      return i, j
    }

Usage like this:

let work1 = async { return 1 }

let work2 = async { return "a" }

let work1And2 = 
  async {
    let! (a, b) = Async.parallel2 work1 work2

    printfn "%i %s" a b
  }

Note how the tasks are of different types. This can be very useful!

We can add an extra helper for Async<Unit>, since () and ((), ()) have the same semantics:

module Async = 

  // ...

  let doParallel2 (a : Async<Unit>) (b : Async<Unit>) =
    parallel2 a b
    |> Async.Ignore

Then applied to your scenario:

async {
  do! Async.doParallel2 (dowork 1) (work 2)
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.